Solid-State Devices Other than Semiconductors

B. Lax, J. G. Mavroides
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Abstract

The solid-state properties of matter are of interest not only to the research scientist but also to the engineer who has translated the findings of basic research into endeavors of great technological significance. The research in ferromagnetism has led to the magnetic amplifier, which for certain applications is superior to amplifiers using vacuum tubes and to the development of new materials such as ferrites, which are now finding use at radio frequencies in pulse transformers, radio frequency inductors, antenna rods, magnetic core delay lines, computer elements, and magnetic recording media. Ferrites and antiferromagnetic materials are now also widely used at microwave frequencies and millimeter wavelengths as nonreciprocal phase shifters, load isolators, filters, ferrite switches, ferrod radiators, modulators and power limiters. Such phenomena as piezoelectricity, ferroelectricity and magnetostriction have resulted in the use of ultrasonic waves for the study of phononelectron and phonon-spin interactions as well for such practical devices as the detection of imperfections and faults in solids, electromechanical transducers, resonators, filters, delay lines, computer memories, ultrasonic soldering, cleaning, drilling and cutting, and strain and acceleration gauges. Dielectric materials have found applications as prisms, polarizers, restrahlen plates and more recently in dielectric wave guides and fiber optics.
半导体以外的固态器件
物质的固态特性不仅使从事研究的科学家感兴趣,而且也使把基础研究成果转化为具有重大技术意义的努力的工程师感兴趣。对铁磁性的研究导致了磁放大器的出现,在某些应用中,磁放大器优于使用真空管的放大器,并导致了铁氧体等新材料的开发,铁氧体现在被用于射频脉冲变压器、射频电感器、天线杆、磁芯延迟线、计算机元件和磁记录介质。铁氧体和反铁磁材料现在也广泛应用于微波频率和毫米波作为非互反移相器,负载隔离器,滤波器,铁氧体开关,铁氧体散热器,调制器和功率限制器。诸如压电、铁电性和磁致伸缩等现象已经导致超声波用于声子电子和声子自旋相互作用的研究,以及用于诸如检测固体中的缺陷和故障、机电换能器、谐振器、滤波器、延迟线、计算机存储器、超声波焊接、清洁、钻孔和切割以及应变和加速度计等实用设备。介电材料已被应用于棱镜、偏振光片、约束板以及最近的介电波导和光纤中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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